Some people have called our current situation a reproducibility crisis. It’s hard to know how to define, exactly, the word crisis. But what we do know is that, of the efforts to try to systematically reproduce findings, whether they be in cancer biology, whether they be in psychology, the success rate has not been impressive.

Our paper, Sleep after practice reduces the attentional blink, has been featured on the Psychonomic Society website. In the paper, published in the journal Attention, Perception & Psychophysics, we report that performance on a temporal attention task improves after a short daytime nap. The improvement seems to be linked to the amount of time spent in non-REM Stage 2 sleep, characterised by abrupt brain waves called sleep spindles. Stephan Lewandowsky wrote this blog post about it.

The results of Cellini and colleagues add the novel finding that sleep—and in particular N2 spindles—also benefits attentional selection in time: Participants in their experiment who exhibited a greater number of spindles during their nap showed a greater improvement in T2 detection performance after their nap.

For the past few days, I’ve been at the annual meeting of the Association for Research in Vision and Ophthalmology. Tomorrow is the final day, and I’m presenting my poster in the session just before the closing keynote. It’s titled Cortical patterning genes are associated with individual differences in visual orientation perception [ PDF of session abstracts ]. I’ll be in Exhibit Hall SA from 10:45–11:45 am for the all posters session, then again from 12:00–1:45 pm.

I’ve recently published a paper with my Cambridge collaborators in the journal Genes, Brain and Behavior. There is a lot of research currently looking into the genetics of psychological disorders. But we now know that most result from a very complex interplay of multiple genetic and environmental factors, which makes traditional genetic approaches less useful than we might hope. One promising approach is to investigate the genetics of psychological endophenotypes—these are traits linked to a disorder, but which are likely to have a relatively simple relationship with genetic mechanisms. Basic visual functions seem to be ideal candidates for this sort of study, because in many cases we know a lot about the underlying physiology.